Mobile terminal, memory and folder control method

ABSTRACT

A mobile terminal includes a display unit on which a tiled object corresponding to a function is displayed and a touch panel located on the display unit. The mobile terminal further includes at least one processor. The at least one processor displays, when a plurality of tiled objects are stored in a folder, display the folder on the display unit. The at least one processor displays an image representing a tiled object stored in the folder on the display unit in association with the folder. The at least one processor performs, when a touch operation is performed on the folder, a function corresponding to the tiled object represented by the image displayed on the display unit.

CROSS-REFERENCE TO RELATED APPLICATIONS

The present application is a continuation application of U.S. patentapplication Ser. No. 15/004,834, filed on Jan. 22, 2016 which is acontinuation of International Application No. PCT/JP2014/069969, filedon Jul. 29, 2014, which claims the benefit of Japanese PatentApplication No. 2013-156693, filed on Jul. 29, 2013. InternationalApplication No. PCT/JP2014/069969 is entitled “PORTABLE TERMINAL,MEMORY, AND FOLDER CONTROL METHOD”, and Japanese Patent Application No.2013-156693 is entitled “PORTABLE TERMINAL, FOLDER CONTROL PROGRAM, ANDFOLDER CONTROL METHOD.” The contents of these applications areincorporated herein by reference in their entirety.

FIELD

Embodiments of the present disclosure relate to a mobile terminal usinga folder.

BACKGROUND

In some mobile terminals, when one object is dragged and dropped so asto overlap at least part of one icon, a new folder is created, and theobject and a file associated with the icon are stored in the new folder.In other specific examples, when an object is dragged and dropped so asto overlap any of two icons overlapping each other, a new folder iscreated, and files associated with the two icons are stored in the newfolder.

SUMMARY

A mobile terminal, memory, and a folder control method are disclosed. Inone embodiment, a mobile terminal includes a display unit, a touchpanel, and at least one processor. The display unit is a device on whicha tiled object corresponding to a function is displayed. The touch panelis located on the display unit. The at least one processor displays,when a plurality of tiled objects are stored in a folder, the folder onthe display unit. The at least one processor displays an imagerepresenting a tiled object stored in the folder on the display unit inassociation with the folder. The at least one processor performs, when atouch operation is performed on the folder, a function corresponding tothe tiled object represented by the image displayed on the display unit.

In one embodiment, memory stores a program so that the program isreadable. The program causes a mobile terminal to perform a firstdisplay control step, a second display control step, and a performancestep. The mobile terminal includes a display unit on which a tiledobject corresponding to a function is displayed and a touch panellocated on the display unit. The first display control step is a step ofdisplaying, when a plurality of tiled objects are stored in a folder,the folder on the display unit. The second display control step is astep of displaying an image representing a tiled object stored in thefolder on the display unit in association with the folder. Theperformance step is a step of performing, when a touch operation isperformed on the folder, a function corresponding to the tiled objectrepresented by the image displayed on the display unit through controlof the second display control step.

In one embodiment, a folder control method is a method for use in amobile terminal. The mobile terminal includes a display unit on which atiled object corresponding to a function is displayed and a touch panellocated on the display unit. A processor of the mobile terminal performsa first display control step, a second display control step, and aperformance step. The first display control step is a step ofdisplaying, when a plurality of tiled objects are stored in a folder,the folder on the display unit. The second display control step is astep of displaying an image representing a tiled object stored in thefolder on the display unit in association with the folder. Theperformance step is a step of performing, when a touch operation isperformed on the folder, a function corresponding to the tiled objectrepresented by the image displayed on the display unit through thesecond display control step.

In one embodiment, a mobile terminal includes a display unit, a touchpanel, and at least one processor. The touch panel is located on thedisplay unit. The at least one processor displays a tiled objectcorresponding to a function on the display unit. The at least oneprocessor selects, when two positions are touched, a tiled objectincluded in a rectangle defined by the two positions. The at least oneprocessor creates a folder when the two positions are moved towards eachother. The at least one processor stores the selected tiled objectselected in the folder.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 illustrates the appearance of a mobile phone according to oneembodiment.

FIG. 2 illustrates electrical configuration of the mobile phoneaccording to one embodiment.

FIG. 3 illustrates functional configuration formed by a processoraccording to one embodiment.

FIG. 4 illustrates an example of displaying a home screen on a display.

FIG. 5 illustrates an example of an operation to select tiles.

FIG. 6 illustrates an example of moving touch positions.

FIG. 7 illustrates an example of creating a folder.

FIG. 8 illustrates an example of an operation to select tiles.

FIG. 9 illustrates an example of moving touch positions.

FIG. 10 illustrates an example of creating a folder.

FIG. 11 illustrates an example of selecting a folder and a tile.

FIG. 12 illustrates an example of moving touch positions.

FIG. 13 illustrates an example of adding a tile to a folder.

FIG. 14 illustrates an example of configuration of a folder table storedin RAM.

FIG. 15 illustrates an example of a touch operation performed on afolder.

FIG. 16 illustrates an example of a screen of a function performedthrough the touch operation.

FIG. 17 illustrates another example of a touch operation performed on afolder.

FIG. 18 illustrates an example of displaying tiles stored in a folder.

FIG. 19 illustrates an example of a touch operation performed on a tilestored in the folder.

FIG. 20 illustrates an example of extracting the tile from the folder.

FIG. 21 illustrates an example of displaying the tile extracted from thefolder.

FIG. 22 illustrates an example of a touch operation performed on afolder.

FIG. 23 illustrates an example of a folder in an editable state.

FIG. 24 illustrates an example of a touch operation performed on afolder.

FIG. 25 illustrates an example of a result of a change in displayposition of a folder.

FIG. 26 illustrates another example of a touch operation performed on afolder.

FIG. 27 illustrates an example of a result of a change in display sizeof a folder.

FIG. 28 illustrates another example of a touch operation performed on afolder.

FIG. 29 illustrates an example of deleting a folder.

FIG. 30 illustrates an example of a display set displayed after adisplay set illustrated in FIG. 27.

FIG. 31 illustrates an example of an image of a display set displayedafter the display set illustrated in FIG. 30.

FIG. 32 illustrates an example of a thumbnail image showing liveinformation different from live information illustrated in FIG. 30.

FIG. 33 illustrates an example of a display set in a certain folder.

FIG. 34 illustrates an example of a display set displayed after thedisplay set illustrated in FIG. 33.

FIG. 35 illustrates an example of a display set including a thumbnailimage showing live information different from live informationillustrated in FIG. 33.

FIG. 36 illustrates an example of performing a flick operation on afolder.

FIG. 37 illustrates an example of a name of a folder in a changeablestate.

FIG. 38 illustrates another example of performing a flick operation on afolder.

FIG. 39 illustrates an example of forcibly switching a display set.

FIG. 40 illustrates an example of a memory map of the RAM.

FIG. 41 illustrates an example of a data storage area of the memory map.

FIG. 42 illustrates a flow chart showing an example of a part of foldercreation processing.

FIG. 43 illustrates a flow chart showing an example of another part ofthe folder creation processing and following the flow chart of FIG. 42.

FIG. 44 illustrates a flow chart showing an example of folder controlprocessing.

FIG. 45 illustrates a flow chart showing an example of tap operationprocessing.

FIG. 46 illustrates a flow chart showing an example of double-tapoperation processing.

FIG. 47 illustrates a flow chart showing an example of long-tapoperation processing.

FIG. 48 illustrates a flow chart showing an example of flick operationprocessing.

FIG. 49 illustrates a flow chart showing an example of a part ofthumbnail image control processing.

FIG. 50 illustrates a flow chart showing an example of another part ofthe thumbnail image control processing and following the flow chart ofFIG. 49.

FIG. 51 illustrates a flow chart showing an example of thumbnail imagecreation processing.

DETAILED DESCRIPTION

As illustrated in FIG. 1, a mobile terminal according to one embodimentis, for example, a mobile phone 10 such as a smartphone. The mobilephone 10 includes a flat longitudinal rectangular housing 12. The mobileterminal, however, is not limited to the mobile phone 10 as illustratedin FIG. 1, and may be a tablet terminal, a tablet PC, a note PC, and aPDA each having a touch panel.

A display 14, such as a liquid crystal panel and an organic EL panel, islocated at a main surface (front surface) of the housing 12. The display14 is also referred to as a display unit. A touch panel 16 is located onthe display 14.

A speaker 18 is embedded in the housing 12 on side of the main surfaceat one end in a longitudinal direction of the housing 12, and amicrophone 20 is embedded in the housing 12 on side of the main surfaceat another end in the longitudinal direction.

A plurality of hard keys 22, which constitute an input operation meansalong with the touch panel 16, are provided at the main surface of thehousing 12. In one embodiment, the hard keys 22 include a call key 22 a,an end key 22 b, and a menu key 22 c.

For example, a user can input phone numbers by performing a touchoperation through the touch panel 16 on a dialpad displayed on thedisplay 14, and can start voice calls by operating the call key 22 a.The user can end voice calls by operating the end key 22 b. The user canpower on and off the mobile phone 10 by long-pressing the end key 22 b.

When the user operates the menu key 22 c, a home screen is displayed onthe display 14. By performing a touch operation through the touch panel16 on an object and the like displayed on the display 14 in this state,the user can select the object, and determine the selection.

The mobile phone 10 can perform not only a phone function but also anemail function, a browser function, and the like. In the followingdescription, a GUI such as a key, an icon, and the like displayed on thedisplay 14 are collectively referred to as objects.

As illustrated in FIG. 2, the mobile phone 10 according to oneembodiment includes a processor 30 referred to as a computer or a CPU. Awireless communication circuit 32, an A/D converter 36, a D/A converter38, an input unit 40, a display driver 42, flash memory 44, RAM 46, atouch panel control circuit 48, an attitude sensor 50, and the like areconnected to the processor 30.

The processor 30 can control the mobile phone 10 as a whole. All or someprograms preset in the flash memory 44 are developed on the RAM 46 inuse. The processor 30 operates in accordance with the programs on theRAM 46 to achieve a plurality of functional blocks relating to themobile phone 10. More specifically, as illustrated in FIG. 3, theprograms on the RAM 46 are run in the processor 30 to form a selectionunit 100, a creation unit 101, a storing unit 102, a first displaycontrol unit 103, a second display control unit 104, an addition unit105, a performance unit 106, an object display control unit 107, adisplay position change unit 108, a display size change unit 109, adeletion unit 110, a switching unit 111, a name change unit 112, and astopping unit 113. Each of the functional blocks is described in anembodiment described below. The RAM 46 is also used as a working area ora buffer area of the processor 30.

Referring back to FIG. 2, the input unit 40 includes the hard keys 22illustrated in FIG. 1. The input unit 40 forms an operation receptionunit that can receive key operations on the hard keys 22 from the user.Information (key data) on the hard keys operated by the user is inputthrough the input unit 40 to the processor 30.

The wireless communication circuit 32 is a circuit for transmitting andreceiving radio waves for voice calls and emails through an antenna 34.In one embodiment, the wireless communication circuit 32 is a circuitfor performing wireless communication in accordance with a CDMA system.For example, if the user provides directions to make a call (transmitvoice) by operating the touch panel 16, the wireless communicationcircuit 32 can perform voice transmission processing and output a voicetransmission signal through the antenna 34 under the directions of theprocessor 30. The voice transmission signal is transmitted to a phone ofa recipient through a base station and a communication network. Whenvoice reception processing is performed in the phone of the recipient, acommunicable state is established, and the processor 30 can perform callprocessing.

The microphone 20 illustrated in FIG. 1 is connected to the A/Dconverter 36, and the A/D converter 36 can convert voice signals fromthe microphone 20 into digital voice data, and input the digital voicedata into the processor 30 as described above. On the other hand, thespeaker 18 is connected to the D/A converter 38. The D/A converter 38can covert digital voice data into voice signals, and provide the voicesignals to the speaker 18 through an amplifier. Voice based on the voicedata is thus output from the speaker 18. When the call processing isbeing performed, voice collected by the microphone 20 is transmitted tothe phone of the recipient, and voice collected by the phone of therecipient is output from the speaker 18.

The processor 30 can adjust the volume of voice output from the speaker18 by controlling an amplification factor of the amplifier connected tothe D/A converter 38 in response to a volume adjustment operationperformed by the user, for example.

The display 14 illustrated in FIG. 1 is connected to the display driver42. Videos or images are displayed on the display 14 in accordance withvideo data or image data output from the processor 30. The displaydriver 42 includes video memory for temporarily storing image data to bedisplayed on the display 14. Data output from the processor 30 is storedin the video memory. The display driver 42 can display images on thedisplay 14 in accordance with the contents of the video memory. Thismeans that the display driver 42 can control display on the display 14connected to the display driver 42 under the directions of the processor30. The processor 30 is thus also referred to as a display control unit.A backlight is provided on the display 14. The display driver 42 cancontrol brightness and turning-on and -off of the backlight inaccordance with the directions of the processor 30.

The touch panel 16 illustrated in FIG. 1 is connected to the touch panelcontrol circuit 48. The touch panel control circuit 48 can providenecessary voltage and the like to the touch panel 16. The touch panelcontrol circuit 48 can also input, into the processor 30, a touch startsignal indicating the start of a touch of the user on the touch panel16, an end signal indicating the end of the touch of the user, andcoordinate data indicating a touch position of the touch of the user.The processor 30 can thus determine an object touched by the user basedon the coordinate data.

In one embodiment, the touch panel 16 is a capacitive touch panel thatcan detect a change in capacitance caused between the surface of thetouch panel 16 and a thing such as a finger. The touch panel 16 candetect a touch of one or more fingers on the touch panel 16, forexample. The touch panel 16 is thus also referred to as a pointingdevice. The touch panel control circuit 48 can detect a touch operationin a touch detectable range of the touch panel 16, and output coordinatedata indicating the position of the touch operation to the processor 30.This means that the user performs a touch operation on the surface ofthe touch panel 16 to input the position, the direction, and the like ofthe operation into the mobile phone 10.

The mobile phone 10 may include a non-transitory recording mediumreadable by the processor 30 in addition to the RAM 46 and the flashmemory 44. The mobile phone 10 may include a hard disk drive, a solidstate drive (SSD), universal serial bus (USB) memory, and the like, forexample.

In one embodiment, the touch operation includes a tap operation, along-tap operation, a flick operation, a slide operation, and the like.

The tap operation refers to an operation to touch the surface of thetouch panel 16 with a finger and then release the finger from thesurface of the touch panel 16 in a short time. The long-tap operationrefers to an operation to touch the surface of the touch panel 16 with afinger for a predetermined time or more and then release the finger fromthe surface of the touch panel 16. The flick operation refers to anoperation to touch the surface of the touch panel 16 with a finger andflick the surface of the touch panel 16 with the finger in any directionat a predetermined speed or more. The slide operation refers to anoperation to move a finger on the surface of the touch panel 16 in anydirection with the finger being in contact with the surface of the touchpanel 16 and then release the finger from the surface of the touch panel16.

The above-mentioned slide operation includes a slide operation to toucha display object displayed on the surface of the display 14 with afinger and move the display object, a so-called drag operation. Anoperation to release the finger from the surface of the touch panel 16after the drag operation is referred to as a drop operation.

In the following description, the tap operation, the long-tap operation,the flick operation, the slide operation, the drag operation, and thedrop operation may each be described by omitting a term “operation”. Thetouch operation may be performed not only with a finger of the user butalso with a stylus pen or the like.

The attitude sensor 50 is used to detect movement of the mobile phone10. The attitude sensor 50 is a piezoelectric gyro, for example. Theattitude sensor 50 can detect angular velocities of three axes (x-, y-,and z-axes), and output results of detection to the processor 30. Theprocessor 30 can detect movement and a tilt of the mobile phone 10 basedon the angular velocities of the respective axes detected by theattitude sensor 50. The processor 30 can control a display direction ofthe display 14 and the like based on the detected movement. As theattitude sensor 50, an acceleration sensor may be used in place of thegyro sensor.

FIG. 4 illustrates an example of the home screen displayed on thedisplay 14. A display range of the display 14 includes a state displayarea 60 and a function display area 62. In the state display area 60, apicto indicating a radio wave reception state of the antenna 34, a pictoindicating the amount of power remaining in a secondary battery, andtime are displayed. In the function display area 62, a home screenincluding tiled objects 70 (hereinafter, simply referred to as tiles 70)corresponding to respective functions is displayed.

The tiles 70 function as shortcuts for the respective functions. Theuser can cause the mobile phone 10 to perform the functionscorresponding to the tiles 70 by tapping the tiles 70. In a case wherethe functions corresponding to the tiles 70 are performed in thebackground, states of the functions are shown as live information by thetiles 70. The user can further cause the mobile phone 10 to add a tile70 corresponding to any function to the home screen. The “functions” inone embodiment include an application installed in the mobile phone 10as well as a setting function to change settings of the mobile phone 10.

In the home screen of FIG. 4, a social networking service (an SNS) tile80 corresponding to an application of an SNS such as Twitter® andFacebook®, a phone tile 81 corresponding to a phone function, an emailtile 82 corresponding to an email function, a browser tile 83corresponding to a browser function, and an alarm tile 84 correspondingto an alarm function are displayed. The home screen can be scrolledvertically. The user can display other tiles 70 on the display 14 byscrolling the home screen.

When a tile 70 is long-tapped, a display state of the tile 70 becomeseditable in the mobile phone 10. In this state, a display size and adisplay position of the tile 70 can be changed, and the tile 70 can bedeleted. Even if the tile 70 is deleted, a corresponding application isnot uninstalled.

In the email tile 82, the number (“8”) of incoming emails and a subject(Meeting) of an incoming email received in the background in the emailfunction are displayed as the live information. The live information isupdated at predetermined time (e.g., two to three seconds) intervals.For example, in a case where an incoming email is received in the emailfunction, the number of incoming emails and a subject of an incomingemail are updated as the live information of the email tile 82. Asdescribed above, the latest information acquired in a functioncorresponding to a tile 70 is displayed in the tile 70 as the liveinformation. In a case where no incoming email is received in the emailfunction, the live information of the email tile 82 is updated so thatthe number of incoming emails is not changed, but a subject of anotherincoming email is displayed. By checking the live information displayedin the tile 70, the user can determine whether the functioncorresponding to the tile 70 is required to be performed by the mobilephone 10.

The email function is performed when the user taps the email tile 82. Inthis case, the email function is performed based on the liveinformation. In a case where a subject of an incoming email is shown asthe live information, for example, the email function is performed sothat text and the like of the incoming email corresponding to thesubject of the incoming email are displayed on the display 14.

In a case where many tiles 70 are added to the home screen, it takes theuser a long time to search for a target tile 70 to perform a function.In one embodiment, tiles 70 are stored in a folder so that functionscorresponding to the stored tiles 70 are easily performed.

An example of the procedure for creating a folder with the home screenbeing displayed on the display 14 is described with reference FIGS. 5 to7. As illustrated in FIG. 5, when a touch operation (multi-touchoperation) is performed substantially simultaneously at two positions,namely a first touch position Tp1 on the SNS tile 80 and a second touchposition Tp2 on the email tile 82, a rectangle is defined based on thetouch positions. The defined rectangle is indicated in a selection lineL, and the selection unit 100 can select three tiles 70, namely the SNStile 80, the phone tile 81, and the email tile 82, included in theselection line L. This means that, when the user performs themulti-touch operation, the selection unit 100 can select tiles 70included in the selection line L defined through the multi-touchoperation.

Next, as illustrated in FIG. 6, when the user moves each of the firsttouch position Tp1 and the second touch position Tp2 by a predetermineddistance or more so that the first touch position Tp1 and the secondtouch position Tp2 are moved towards each other, display of the tiles 70selected by the selection unit 100 is removed. The creation unit 101 canthen create a folder based on the number of tiles 70 selected by theselection unit 100. The storing unit 102 can store the selected tiles 70in the folder created by the creation unit 101. As illustrated in FIG.7, the first display control unit 103 can display the folder 72 in whichthe tiles 70 are stored on the display 14 based on the center of gravityof the defined rectangle. The first display control unit 103 can displaythe folder 72 created by the creation unit 101 on the display 14 in adifferent manner from the tiles 70. The second display control unit 104can display thumbnail images 74 of the tiles 70 stored in the folder 72in a display range of the folder 72. In the example illustrated in FIG.7, a thumbnail image 90 (74) of the SNS tile 80, a thumbnail image 91(74) of the phone tile 81, and a thumbnail image 92 (74) of the emailtile 82 are displayed in the display range of the folder 72.

In the following description, an operation to move the two touchpositions towards each other after the multi-touch operation is referredto as a “pinch-in operation”.

In other embodiments, the creation unit 101 may create the folder 72when the user performs the multi-touch operation. Although the tiles 70are selected as long as parts of the tiles 70 are included in thedefined rectangle in one embodiment, the selection unit 100 may notselect a tile unless the tile as a whole is included in the definedrectangle in yet other embodiments.

A case where the display size of the folder 72 varies depending on thenumber of tiles 70 selected by the selection unit 100 is described withreference to FIGS. 8 to 10. When the pinch-in operation is performed sothat the selection unit 100 can select five tiles 70 as illustrated inFIGS. 8 and 9, for example, the folder 72 is created as illustrated inFIG. 10, and the five tiles 70 are stored in the folder 72. In theexample illustrated in FIG. 10, the thumbnail image 90 (74) of the SNStile 80, the thumbnail image 91 (74) of the phone tile 81, the thumbnailimage 92 (74) of the email tile 82, a thumbnail image 93 (74) of thebrowser tile 83, and a thumbnail image 94 (74) of the alarm tile 84 aredisplayed in the display range of the folder 72. In this case, thethumbnail images 74 of the five tiles 70 cannot be displayed at one timewhen the folder 72 has the display size illustrated in FIG. 7. Thus, ina case where the number of stored tiles 70 is five or more, the folder72 having the display size illustrated in FIG. 10 is displayed on thedisplay 14.

In one embodiment, the display size of the folder 72 illustrated in FIG.10 is a large size, and the display size of the folder 72 illustrated inFIG. 7 is a medium size. When the number of tiles 70 stored in thefolder 72 is two to four, the folder 72 having the medium size isdisplayed on the display 14. When the number of tiles 70 stored in thefolder 72 is five to eight, the folder 72 having the large size isdisplayed on the display 14. Up to eight thumbnail images 74 can bedisplayed in the folder 72 having the large size, and up to fourthumbnail images 74 can be displayed in the folder 72 having the mediumsize. The display size of the folder 72 can be changed, which isdescribed in detail below. A folder 72 having a small size at which asingle thumbnail image 74 can be displayed may be displayed on thedisplay 14.

As described above, the user can cause the mobile phone 10 to select aplurality of tiles 70 together, and to store the tiles 70 in the folder72 together. This allows the user to easily organize the tiles 70displayed in the home screen.

In one embodiment, the maximum number of tiles 70 that can be stored inthe folder 72 is set to match the number (“eight”) of thumbnail images74 that can be displayed in the folder 72 having the large size. Inother embodiments, however, the number of tiles 70 that can be stored inthe folder 72 may be larger than the number of thumbnail images 74 thatcan be displayed in the folder 72 having the large size, or may not belimited. When the pinch-in operation is performed on a single tile 70,the folder 72 having the small size is created.

A case where a tile 70 is added to a folder 72 is described withreference to FIGS. 11 to 13. In one embodiment, when the user selects atile 70 added to a folder 72 and the folder 72 and performs the pinch-inoperation, the addition unit 105 can add the tile 70 to the folder 72.For example, if the pinch-in operation is performed on the phone tile 81and the folder 72 as illustrated in FIGS. 11 and 12, the addition unit105 can add the thumbnail image 91 of the phone tile 81 to the folder 72as illustrated in FIG. 13. As described above, the user can cause themobile phone 10 to add any tile 70 to the folder 72.

Although a single tile 70 is added in one embodiment described above,two or more tiles 70 may be added to the folder 72 through the pinch-inoperation. In other embodiments, a new folder 72 for storing the folder72 and the tile 70 on which the pinch-in operation is performed may becreated.

FIG. 14 illustrates an example of a folder table in which folderinformation is stored. The folder table includes columns of a folder ID,a name, a display size, a display position, the number of tiles,functions, thumbnail images, and switching. Folder information of asingle folder 72 is stored in a row corresponding to a folder ID. An IDfor distinguishing among a plurality of folders 72 is stored in thecolumn of the folder ID. A name of the folder 72 is stored in the columnof the name. Any one of the above-mentioned “large size”, “medium size”,and “small size” is stored in the column of the display size. A displayrange (display coordinates) of the folder 72 is stored in the column ofthe display position. Information on the display position is used todetermine whether a touch operation is a touch operation performed onthe folder 72. The number of tiles 70 stored in the folder 72 is storedin the column of the number of tiles. The column of the thumbnail imagesis further divided into columns including a column of a first thumbnailimage. A tile 70 corresponding to a thumbnail image 74 displayed in thedisplay range of the folder 72 and a display range (display coordinates)of the thumbnail image 74 are stored in each of these columns.Information indicating whether switching of the thumbnail image 74,which is described below, is possible or not is stored in the column ofswitching. The touch operation performed on the folder 72 is determinedbased on the folder table.

For example, in folder information of a folder 72 having a folder ID“0001”, the name is “main”, the display size is the “medium size”, thedisplay position is “(X1, Y1)-(X2, Y2)”, the number of stored tiles 70is “4”, functions corresponding to the tiles 70 are “SNS”, “email”, andso on, the thumbnail images 74 displayed in the display range of thefolder 72 includes a first thumbnail image “SNS/(x1, y1)-(x2, y2)”, andswitching is set to be not possible (“x”).

The tap operation performed on the folder 72 is described with referenceto FIGS. 15 and 16. In one embodiment, when the tap operation isperformed on the folder 72, and the touch position of the tap operationis included in a display range of a thumbnail image 74 displayed in thedisplay range of the folder 72, an application is run based on a tile 70corresponding to the thumbnail image 74. For example, if a tap operationTt is performed on the thumbnail image 92 (74) of the email tile 82 asillustrated in FIG. 15, the performance unit 106 can perform the emailfunction as illustrated in FIG. 16. In this case, the thumbnail image 92of the email tile 82 shows live information as with the email tile 82.Thus, when the performance unit 106 performs the email function, anincoming email is displayed on the display 14 based on the liveinformation displayed in the thumbnail image 92 of the email tile 82.

As described above, the user can easily cause the mobile phone 10 toperform the function corresponding to the tile 70 stored in the folder72. By checking the live information, the user can also determinewhether the function is required to be performed.

The double-tap operation performed on the folder 72 is described withreference to FIGS. 17 and 18. When the double-tap operation is performedon the folder 72, the folder 72 is opened, and the tiles 70 stored inthe folder 72 are displayed on the display 14. For example, if adouble-tap operation Td is performed on the folder 72 as illustrated inFIG. 17, the object display control unit 107 can display an expandedfolder image OF on the display 14 as illustrated in FIG. 18. In theexpanded folder image OF, the object display control unit 107 displaysthe SNS tile 80, the phone tile 81, the email tile 82, and the browsertile 83 stored in the folder 72 as well as a name 72 a of the folder.When the tap operation is performed on a tile 70 displayed in theexpanded folder image OF, a function corresponding to the tile 70 isperformed. The user can thus cause the mobile phone 10 to open thefolder 72 and perform the function corresponding to the tile 70.

When the tiles 70 stored in the folder 72 are displayed in the expandedfolder image OF, the tiles 70 are each displayed on the display 14 indisplay states before the tiles 70 are stored in the folder 72. In otherembodiments, the folder 72 may be opened when the user performs anoperation to shake the mobile phone 10 while touching the display rangeof the folder 72.

As illustrated in FIG. 19, a tile 70 stored in the folder 72 can beextracted from the folder 72 when the folder 72 is opened. For example,in a case where the browser tile 83 is extracted from the folder 72, theuser performs a flick operation Tf on the browser tile 83 towards theoutside of the folder 72. As a result, as illustrated in FIG. 20,display of the browser tile 83 is removed from display of the tiles 70stored in the folder 72. When an operation to close the folder 72 isperformed, the browser tile 83 is displayed on the display 14 along withthe folder 72 as illustrated in FIG. 21. The folder 72 is herein closedwhen the menu key 22 c is pressed. As described above, the user cancause the mobile phone 10 to extract an unnecessary tile 70 from thefolder 72.

The opened folder 72 is also closed when a tap operation is performedoutside a display range of the expanded folder image OF.

The long-tap operation performed on the folder 72 is described withreference to FIGS. 22 and 23. When a long-tap operation T1 is performedon the folder 72 as illustrated in FIG. 22, the display position and thedisplay size of the folder 72 become editable as illustrated in FIG. 23.When the folder 72 becomes editable, a display manner (e.g., color) ofthe folder 72 changes, and a size change icon 76 and a deletion icon 78are displayed as editing icons on the display 14 so as to overlap thefolder 72.

As illustrated in FIGS. 24 and 25, when a slide operation is performedafter the folder 72 is touched in the above-mentioned editable state,the display position change unit 108 can change the display position ofthe folder 72 following the touch position. For example, when a slideoperation Ts is performed upwards as illustrated in FIG. 24, the displayposition change unit 108 can change the display position of the folder72 displayed on the display 14 to a position above the original displayposition as illustrated in FIG. 25. This means that the user can causethe mobile phone 10 to change the display position of the folder 72 toany position. Although not illustrated, the slide operation is notlimited to the upward slide operation, and may be a downward slideoperation, a horizontal slide operation, or a diagonal slide operation.

As illustrated in FIGS. 26 and 27, the user can cause the display sizechange unit 109 to change the display size of the folder 72 byperforming the slide operation after touching the size change icon 76.For example, when the slide operation Ts is performed towards the insideof the folder 72 as illustrated in FIG. 26, the display size change unit109 can change the display size of the folder 72 displayed on thedisplay 14 from the medium size to the small size, and display thefolder 72 having the small size on the display 14 as illustrated in FIG.27. Although not illustrated, when the slide operation is performedtowards the outside of the folder 72, the display size change unit 109can change the display size of the folder 72 displayed on the display 14from the medium size to the large size, and display the folder 72 havingthe large size on the display 14. That is to say, the slide operationperformed towards the inside of the folder 72 can reduce the displaysize of the folder 72. The slide operation performed towards the outsideof the folder 72 can increase the display size of the folder 72.However, a slide operation to further reduce the folder 72 having thesmall size and a slide operation to further increase the folder 72having the large size are disabled. The user can thus cause the mobilephone 10 to change the display size of the folder 72.

The change in display position and display size of the folder 72 isdetermined when the menu key 22 e is pressed. This means that the usercan cause the mobile phone 10 to end the editable state of the folder 72by pressing the menu key 22 c.

As illustrated in FIGS. 28 and 29, the folder 72 can be deleted when thefolder 72 is in the editable state. For example, when the user performsthe tap operation Tt on the deletion icon 78 as illustrated in FIG. 28,the deletion unit 110 can delete the folder 72, and the stored tiles 70are displayed on the display 14 in the display states before the tiles70 are stored as illustrated in FIG. 29. This means that the user cancause the mobile phone 10 to delete an unnecessary folder 72. In otherembodiments, the folder 72 may be deleted when the multi-touch operationis performed on the folder 72 not in the editable state, and then atouch operation (pinch-out operation) to separate two touch positionsfrom each other is performed.

A case where the thumbnail images 74 corresponding to the tiles 70stored in the folder 72 cannot be displayed at one time on the display14 (in the display range of the folder 72) is described with referenceto FIGS. 30 to 32. For example, in a case where the display size of thefolder 72 is changed to the small size as illustrated in FIG. 30, asingle thumbnail image 74 is displayed in the display range of thefolder 72. Thus, switching of the thumbnail image 74 becomes possible,and the switching unit 111 can switch the thumbnail image 74 displayedon the display 14 (in the display range of the folder 72) atpredetermined time (e.g., two to three seconds) intervals. For example,in the folder 72, the switching unit 111 can switch the thumbnail image74 at predetermined time intervals in the order of the thumbnail image90 of the SNS tile 80, a thumbnail image 92 a of the email tile 82 (seeFIG. 30), and the thumbnail image 91 of the phone tile 81 (see FIG. 31).After the thumbnail image 91 of the phone tile 81, the thumbnail image90 of the SNS tile 80 is displayed again on the display 14. Thethumbnail image 92 of the email tile 82 herein shows live information.Thus, when the thumbnail image 92 of the email tile 82 is displayedagain through switching of the thumbnail image 74, the live informationis changed (updated) to live information shown by a thumbnail image 92 bof the email tile 82 as illustrated in FIG. 32.

FIGS. 33 to 35 illustrate an example of switching of the thumbnail image74 in the folder 72 in which a plurality of thumbnail images 74 aredisplayed. For example, when five tiles 70 are stored in the folder 72displayed at the medium size on the display 14, thumbnail images 74corresponding to the respective tiles 70 cannot be displayed at one timeon the display 14 (in the display range of the folder 72). Thus, asillustrated in FIG. 33, four thumbnail images 74 (the thumbnail image 90of the SNS tile 80, the thumbnail image 91 of the phone tile 81, thethumbnail image 92 (92 a) of the email tile 82, and the thumbnail image93 of the browser tile 83) are displayed on the display 14 (in thedisplay range of the folder 72) in the initial state. When thepredetermined time has elapsed, the switching unit 111 displays theremaining thumbnail image 74 (the thumbnail image 94 of the alarm tile84) on the display 14 (in the display range of the folder 72) asillustrated in FIG. 34. When the predetermined time has further elapsed,the switching unit 111 displays the four thumbnail images 74 (thethumbnail image 90 of the SNS tile 80, the thumbnail image 91 of thephone tile 81, the thumbnail image 92 (92 a) of the email tile 82, andthe thumbnail image 93 of the browser tile 83) again on the display 14as illustrated in FIG. 35. As described above, when a plurality of tiles70 are stored in the folder 72, the switching unit 111 can switch thethumbnail image 74 displayed on the display 14 (in the display range ofthe folder 72) to display all the thumbnail images 74 representing thetiles 70 stored in the folder 72 on the display 14. When the thumbnailimage 74 shows the live information, the live information is updated(changed) through switching of the thumbnail image 74.

One or more thumbnail images 74 displayed in the display range of thefolder 72 are herein referred to as a “display set”. “Switching of thethumbnail image 74” is thus also referred to as “switching of thedisplay set”. For example, the number of display sets corresponding tothe folder 72 having the small size is one to eight. The display setcorresponding to the folder 72 having the small size includes a singlethumbnail image 74. The number of display sets corresponding to thefolder 72 having the medium size is one to two. The display setcorresponding to the folder 72 having the medium size includes one tofour thumbnail images 74. The number of display sets corresponding tothe folder 72 having the large size is one. The display setcorresponding to the folder 72 having the large size includes one toeight thumbnail images 74. The display set is not switched when thefolder 72 has the large size, as all the thumbnail images 74 aredisplayed in the folder 72 having the large size. The live informationis updated when the display set is switched. When the display set is notswitched, however, the live information is updated at predetermined timeintervals.

As described above, even if some thumbnail images 74 are not displayedon the display 14 (in the display range of the folder 72), the user cancause the mobile phone 10 to perform any function by waiting for athumbnail image 74 corresponding to any tile 70 to be displayed.

The flick operation performed on the folder 72 is described withreference to FIGS. 36 and 37. When the flick operation Tf is performedupwards on the folder 72 as illustrated in FIG. 36, a name of the folder72 on which the flick operation Tf has been performed upwards becomeseditable as illustrated in FIG. 37. When the name of the folder 72 iseditable, the name change unit 112 can display, on the folder 72, a textinput area 64 in which the current name of the folder 72 is written, anddisplay a keyboard 66 in a lower portion of the function display area62. The user can cause the mobile phone 10 to change the name of thefolder to any name using the keyboard 66. A newly-created folder 72 isset to have a name “new folder”.

Next, as illustrated in FIGS. 38 and 39, when a horizontal flickoperation (particular touch operation) is performed on the folder 72,the switching unit 111 can forcibly switch the display set. For example,when the flick operation Tf is performed to the left on the folder 72 inwhich the thumbnail image 92 of the email tile 82 is displayed asillustrated in FIG. 38, the switching unit 111 can display a nextdisplay set, i.e., the thumbnail image 91 of the phone tile 81, on thedisplay 14 (in the display range of the folder 72) as illustrated inFIG. 39. Although not illustrated, when the flick operation is performedto the right on the folder 72, the switching unit 111 can display aprevious display set (the thumbnail image 90 of the SNS tile 80 in oneembodiment described above) on the display 14 (in the display range ofthe folder 72). As described above, the user can display any targetthumbnail image 74 on the display 14, and thus can easily cause themobile phone 10 to perform the function corresponding to the tile 70stored in the folder 72.

Although not illustrated, when a downward flick operation is performedon a folder 72 in which switching of the display set is possible, thestopping unit 113 can stop switching of the display set. As describedabove, the user can display a thumbnail image 74 of a tile 70corresponding to a frequently-used function on the display 14 at alltimes. This improves convenience when the mobile phone 10 is caused toperform the function corresponding to the tile 70 stored in the folder72. When the downward flick operation is performed again on a folder 72in which switching of the display set is stopped, switching of thedisplay set is resumed.

As can be understood from the above-mentioned description, the user caneasily perform operations on the folder 72 in one embodiment.

Features of one embodiment have been briefly described above. Detaileddescription is given below using memory maps illustrated in FIGS. 40 and41 and flow charts illustrated in FIGS. 42 to 51.

Referring to FIG. 40, a program storage area 302 and a data storage area304 are formed in the RAM 46. The program storage area 302 is an areafor reading and storing (developing) part or all of program data presetin the flash memory 44 (FIG. 2) as described above.

In the program storage area 302, a folder creation program 310 run whenthe folder 72 is created in accordance with the touch operation, afolder control program 312 run when the touch operation is performed onthe folder 72, a thumbnail image control program 314 for controllingswitching and updating of the thumbnail image 74, and a thumbnail imagecreation program 316 for creating the thumbnail image 74 are stored. Atap operation program 312 a, a double-tap operation program 312 b, along-tap operation program 312 c, and a flick operation program 312 dare stored in the program storage area 302 as subroutines of the foldercontrol program 312.

Programs for performing applications and functions, such as the emailfunction and the browser function, are stored in the program storagearea 302.

Next, referring to FIG. 41, in the data storage area 304 of the RAM 46,a touch buffer 330, a selection buffer 332, and a thumbnail buffer 334are provided, and a touch coordinate map 336 and a folder table 338 arestored. A touch flag 340, a forcible switching flag 342, a leftwardflick flag 344, a stopping flag 346, an update counter 348, and the likeare provided in the data storage area 304.

Data on touch coordinates output from the touch panel control circuit 48is stored in the touch buffer 330. Information on tiles 70 selectedthrough the multi-touch operation is temporarily stored in the selectionbuffer 332. A thumbnail image 74 necessary for switching of the displayset and updating of the live information (display state) is temporarilystored in the thumbnail buffer 334.

The touch coordinate map 336 is data for associating touch coordinatesdetermined through the touch operation with display coordinates on thedisplay 14. This means that results of the touch operation performed onthe touch panel 16 are reflected in display on the display 14 based onthe touch coordinate map 336.

The folder table 338 is a table having configuration illustrated in FIG.14, for example, and stores information on the folder 72.

The touch flag 340 is a flag for determining whether the touch panel 16is touched. The touch flag 340 is configured by a one-bit register, forexample. When the touch flag 340 is tuned on (flagged), a data value “1”is set to the register. On the other hand, when the touch flag 340 isturned off (not flagged), a data value “0” is set to the register. Thetouch flag 340 is switched on and off based on output of the touch panelcontrol circuit 48.

The forcible switching flag 342 is a flag for indicating that the flickoperation has been performed on the folder 72. The leftward flick flag344 is a flag for indicating that a leftward flick operation has beenperformed. The stopping flag 346 is a flag for indicating that thedownward flick operation to stop switching has been performed.

The update counter 348 is a counter for measuring the predetermined timewhen the thumbnail image 74 is switched and the live information ischanged. The update counter 348 starts counting when being initialized,and expires when the predetermined time (e.g., two to three seconds) haselapsed. The update counter 348 is also referred to as an update timer.

In the data storage area 304, output of the attitude sensor 50 maytemporarily be stored, and another flag or timer (counter) required torun a program may be provided.

The processor 30 can process a plurality of tasks, including foldercreation processing illustrated in FIGS. 42 and 43, folder controlprocessing illustrated in FIG. 44, tap operation processing illustratedin FIG. 45, double-tap operation processing illustrated in FIG. 46,long-tap operation processing illustrated in FIG. 47, flick operationprocessing illustrated in FIG. 48, thumbnail image control processingillustrated in FIGS. 49 and 50, and thumbnail image creation processingillustrated in FIG. 51, in parallel under control of an OS, such as aWindows®-based OS and a Linux®-based OS including Android® and iOS®.

The folder creation processing starts when the home screen is displayedon the display 14, for example. The processor 30 determines whether themulti-touch operation has been performed in step S1. This means that theprocessor 30 determines whether coordinates of two touch positions arestored in the touch buffer 330 with the touch flag 340 being on. If “NO”in step S1, i.e., the multi-touch operation has not been performed, theprocessor 30 determines whether the processing ends in step S3. It isdetermined whether an operation to remove display of the home screen hasbeen performed. If “YES” in step S3, e.g., an operation to transitionfrom the home screen to another screen has been performed, the processor30 ends the folder creation processing. On the other hand, if “NO” instep S3, i.e., display of the home screen continues, the processor 30returns to processing in step S1.

If “YES” in step S1, i.e., the multi-touch operation has been performed,the processor 30 defines a rectangle based on the two touch positions instep S5. For example, the rectangle is defined based on the two touchpositions as illustrated in FIG. 5. Next, the processor 30 determineswhether one or more tiles 70 are included in the defined rectangle instep S7. If “NO” in step S7, i.e., no tile 70 is included in therectangle, the processor 30 returns to processing in step S1. On theother hand, if “YES” in step S7, i.e., the tiles 70 are included in thedefined rectangle, the processor 30 proceeds to processing in step S9.

Next, the processor 30 determines whether a folder 72 is included in thedefined rectangle in step S9. If “NO” in step S9, i.e., no folder 72 isincluded in the rectangle as illustrated in FIG. 5, the processor 30(selection unit 100) selects the tiles 70 included in the definedrectangle in step S11. This means that information on the tiles 70 isstored in the selection buffer 332. A display manner (e.g., color) ofthe selected tiles 70 is changed. Next, the processor 30 stores thenumber of tiles 70 in step S13. This means that the number of tiles 70stored in the selection buffer 332 is stored. When processing in stepS13 ends, the processor 30 proceeds to processing in step S21.

If “YES” in step S9, e.g., the folder 72 is included in the rectangle asillustrated in FIG. 11, the processor 30 selects the tiles 70 and thefolder 72 included in the defined rectangle in step S15. For example, inFIG. 11, the phone tile 81 and the folder 72 are selected, andinformation on the phone tile 81 and the folder 72 is stored in theselection buffer 332. Next, the processor 30 acquires the number oftiles 70 stored in the selected folder 72 in step S17. This means thatthe selected folder 72 is specified from the folder table 338, and the“number of tiles” stored in the folder 72 is read. Next, the processor30 stores the total number of tiles 70 in step S19. This means that thesum (total number) of the number of tiles 70 stored in the folder 72 andthe number of selected tiles 70 is calculated.

Next, the processor 30 determines whether the number of selected tiles70 is larger than a maximum value of the number of tiles 70 that can bestored in the folder 72 in step S21. If “YES” in step S21, i.e., toomany tiles 70 are selected to be stored in the folder 72, the processor30 issues an error message in step S23 and returns to processing in stepS1. For example, a character string “selected tiles cannot be stored infolder” is displayed on the display 14. On the other hand, if “NO” instep S21, i.e., the selected tiles 70 can be stored in the folder 72,the processor 30 determines whether the two touch positions are movedtowards each other in step S25. This means that it is determined whetherthe pinch-in operation has been performed. It is determined that thepinch-in operation has been performed when a movement distance of eachof the two touch positions is larger than a threshold in step S25.

If “NO” in step S25, e.g., the two touch positions have not changed, theprocessor 30 determines whether releasing has been performed in stepS27. This means that it is determined whether the touch flag 340 hasbeen turned off. If “YES” in step S27, e.g., the user releases fingerswith which the multi-touch operation is performed from the touch panel16, the processor 30 returns processing in step S1. On the other hand,if “NO” in step S27, i.e., the user continues the multi-touch operation,the processor 30 returns to processing in step S25.

Next, if “YES” in step S25, i.e., the pinch-in operation has beenperformed, the processor 30 determines whether the folder 72 is selectedin step S29. This means that it is determined whether at least part ofthe folder 72 is included in the rectangle. If “NO” in step S29, e.g.,no folder 72 is selected as illustrated in FIG. 5, the processor 30removes display of the selected tiles 70 in step S31. This means thatdisplay of the selected tiles 70 is removed as the selected tiles 70 arestored in the folder 72. Next, the processor 30 (creation unit 101)creates the folder 72 based on the number of tiles 70 in step S33. Forexample, if the number of selected tiles 70 is three, the creation unit101 creates the folder 72 having the medium size. When the creation unit101 creates the folder 72, folder information is added to the foldertable 338. Next, the processor 30 (storing unit 102) stores the tiles 70in the folder 72 in step S35. This means that the selected tiles 70 arestored in the folder 72 created by the creation unit 101 based on theinformation on the tiles 70 stored in the selection buffer 332. When thetiles 70 are stored in the folder 72, information on the stored tiles 70is added to the folder table 338. Next, the processor 30 (first displaycontrol unit 103) displays the folder 72 based on the center of gravityof the rectangle in step S37. This means that the folder 72 is displayedon the display 14 so that the center of gravity of the rectangle isincluded in the display range of the created folder 72. When processingin step S37 ends, the processor 30 returns to processing in step S1.

If “YES” in step S29, e.g., the folder 72 is selected as illustrated inFIG. 11, the processor 30 removes display of the selected tiles 70 instep S39. This means that display of the selected tiles 70 is removed asthe selected tiles 70 are stored in the folder 72. Next, the processor30 sets the display size of the folder 72 based on the total number oftiles 70 in step S41. For example, if the total number of tiles 70 isfive, and the current display size of the folder 72 is the medium size,the display size of the folder 72 is changed (set) to the large size.Next, the processor 30 (addition unit 105) adds (stores) the tiles 70 to(in) the folder 72 in step S43. This means that the addition unit 105adds (stores) the tiles 70 to (in) the folder 72 based on theinformation on the tiles 70 stored in the selection buffer 332. When thedisplay size of the folder 72 is set in step S41, and the tiles 70 areadded (stored) in step S43, the results are reflected in the foldertable 338. When processing in step S43 ends, the processor 30 returns toprocessing in step S1.

FIG. 44 illustrates a flow chart of the folder control processing. Thefolder control processing starts when the home screen including thefolder 72 is displayed. The processor 30 determines whether the tapoperation has been performed in step S61. This means that it isdetermined whether the tap operation has been performed on the folder72. If “YES” in step S61, i.e., the tap operation has been performed onthe folder 72, the processor 30 performs the tap operation processing instep S63. Next, the processor 30 determines whether the processing endsin step S65. For example, it is determined whether an operation to enddisplay of the home screen has been performed. If “YES” in step S65,e.g., the operation to transition from the home screen to the otherscreen has been performed, the processor 30 ends the folder controlprocessing. On the other hand, if “NO” in step S65, i.e., display of thehome screen continues, the processor 30 returns to processing in stepS61. Description on the tap operation processing in step S63 is hereinomitted as the tap operation processing is described in detail with useof the flow chart of FIG. 45.

If “NO” in step S61, i.e., the tap operation has not been performed, theprocessor 30 determines whether the double-tap operation has beenperformed in step S67. This means that it is determined whether thedouble-tap operation has been performed on the folder 72. If “YES” instep S67, i.e., the double-tap operation has been performed on thefolder 72, the processor 30 performs the double-tap operation processingin step S69, and proceeds to processing in step S65. Description on thedouble-tap operation processing is herein omitted as the double-tapoperation processing is described in detail with use of the flow chartof FIG. 46.

If “NO” in step S67, i.e., the double-tap operation has not beenperformed, the processor 30 determines whether the long-tap operationhas been performed in step S71. This means that it is determined whetherthe long-tap operation has been performed on the folder 72. If “YES” instep S71, i.e., the long-tap operation has been performed on the folder72, the processor 30 performs the long-tap operation processing in stepS73, and proceeds to processing in step S65. Description on the long-tapoperation processing is herein omitted as the long-tap operationprocessing is described in detail with use of the flow chart of FIG. 47.

If “NO” in step S71, i.e., the long-tap operation has not beenperformed, the processor 30 determines whether the flick operation hasbeen performed in step S75. This means that it is determined whether theflick operation has been performed on the folder 72. If “YES” in stepS75, i.e., the flick operation has been performed on the folder 72, theprocessor 70 performs the flick operation processing in step S77, andproceeds to processing in step S65. Description on the flick operationprocessing is herein omitted as the flick operation processing isdescribed in detail with use of the flow chart of FIG. 48.

If “NO” in step S75, i.e., the flick operation has not been performed onthe folder 72, the processor 30 proceeds to processing in step S65.

FIG. 45 illustrates a flow chart of the tap operation processing. Whenprocessing in step S63 is performed in the folder control processingillustrated in FIG. 44, the processor 30 determines whether there is anythumbnail image 74 at the touch position in step S91. This means that itis determined whether the tap operation has been performed on thethumbnail image 74. In processing in step S91, determination is madebased on the touch position stored in the touch buffer 330 and thedisplay range of the thumbnail image 74 stored in the folder table 338.

If “YES” in step S91, i.e., the tap operation has been performed on thethumbnail image 74, the processor 30 specifies the tile 70 correspondingto the thumbnail image 74 in step S93. Specifically, the processor 30specifies the tile 70 corresponding to the thumbnail image 74 on whichthe tap operation has been performed based on the column of thethumbnail images 74 included in the folder table 338. Next, theprocessor 30 (performance unit 106) performs a function corresponding tothe specified tile 70 in step S95. For example, if the tap operation hasbeen performed on the thumbnail image 92 corresponding to the emailfunction as illustrated in FIG. 15, the email tile 82 is specified, andthe performance unit 106 performs the email function. When processing instep S95 ends, the processor 30 ends the tap operation processing, andreturns to the folder control processing. If “NO” in step S91, i.e., thetap operation has not been performed on the thumbnail image 74, theprocessor 30 ends the tap operation processing, and returns to thefolder control processing.

FIG. 46 illustrates a flow chart of the double-tap operation processing.When processing in step S69 is performed in the folder controlprocessing illustrated in FIG. 44, the processor 30 (object displaycontrol unit 107) displays one or more tiles 70 stored in the folder 72on the display 14 in step S101. This means that the expanded folderimage OF including images of the tiles 70 stored in the folder 72 isdisplayed on the display 14 as illustrated in FIG. 18. Next, theprocessor 30 determines whether the flick operation has been performedon any of the tiles 70 in step S103. This means that it is determinedwhether an operation to extract the tile 70 from the folder 72 has beenperformed. If “YES” in step S103, e.g., the flick operation has beenperformed on the tile 70 as illustrated in FIG. 19, the processor 30extracts the flicked tile 70 from the folder 72 in step S105. This meansthat the image of the tile 70 on which the flick operation has beenperformed is removed from the expanded folder image OF. Information onthe extracted tile 70 is deleted from the folder table 338. Whenprocessing in step S105 ends, the processor 30 proceeds to processing instep S111.

If “NO” in step S103, i.e., the flick operation has not been performedon the tile 70, the processor 30 determines whether the tap operationhas been performed on any of the tiles 70 in step S107. If “YES” in stepS107, i.e., the tap operation has been performed on the tile 70 includedin the expanded folder image OF, the processor 30 performs a functioncorresponding to the tile 70 in step S109. This means that, if the tapoperation has been performed on the email tile 82 illustrated in FIG.18, the email function is performed. When processing to perform thefunction ends in step S109, the processor 30 ends the double-tapoperation processing, and returns to the folder control processing. Theprocessor 30 ends the folder control processing after returning to thefolder control processing as the application is being run.

If “NO” in step S107, i.e., the tap operation has not been performed onthe tile 70, the processor 30 determines whether the operation to closethe folder 72 has been performed in step S111. For example, it isdetermined whether the menu key 22 c has been pressed. If “NO” in stepS111, i.e., the operation to close the folder 72 has not been performed,the processor 30 returns to processing in step S101. On the other hand,if “YES” in step S111, i.e., the operation to close the folder 72 hasbeen performed, the processor 30 ends the double-tap operationprocessing, and returns to the folder control processing.

FIG. 47 illustrates a flow chart of the long-tap operation processing.When processing in step S73 is performed in the folder controlprocessing illustrated in FIG. 44, the processor 30 displays the editingicons in step S131. For example, the size change icon 76 and thedeletion icon 78 are displayed on the display 14 so as to overlap thefolder 72 as illustrated in FIG. 23. When the editing icons aredisplayed, the display manner of the folder 72 changes.

Next, the processor 30 determines whether an operation to change thedisplay position has been performed in step S133. This means that it isdetermined whether the slide operation has been performed on the folder72. If “YES” in step S133, e.g., the slide operation has been performedon the folder 72 as illustrated in FIG. 24, the processor 30 (displayposition change unit 108) changes the display position of the folder 72displayed on the display 14 in step S135. This means that the displayposition of the folder 72 displayed on the display 14 is changed inaccordance with the slide operation. When processing in step S135 ends,the processor 30 proceeds to processing in step S141.

If “NO” in step S133, i.e., the operation to change the display positionhas not been performed, the processor 30 determines whether an operationto change the display size has been performed in step S137. For example,it is determined whether the size change icon 76 has been touched, andthen the slide operation has been performed. If “YES” in step S137,e.g., the operation to change the display size of the folder 72 has beenperformed as illustrated in FIG. 26, the processor 30 (display sizechange unit 109) changes the display size of the folder 72 in step S139.This means that the display size of the folder 72 is changed based onthe direction and the amount of the slide operation.

Next, the processor 30 updates the folder table 338 in step S141, andchanges a display state of the folder 72 in step S143. This means that,since the display position or the display size of the folder 72 has beenchanged, the results of the change are reflected in the folder table 338and the display state of the folder 72. When processing in step S143ends, the processor 30 proceeds to processing in step S153.

If “NO” in step S137, i.e., the operation to change the display size hasnot been performed, the processor 30 determines whether an operation todelete the folder 72 has been performed in step S145. This means that itis determined whether the tap operation has been performed on thedeletion icon 78. If “YES” in step S145, e.g., the tap operation hasbeen performed on the deletion icon 78 as illustrated in FIG. 28, theprocessor 30 removes display of the folder 72 in step S147. This meansthat display of the folder 72 corresponding to the deletion icon 78 isdeleted. Next, the processor 30 (deletion unit 110) deletes folderinformation of the folder 72 corresponding to the deletion icon 78 fromthe folder table 338 in step S149. This means that the folderinformation corresponding to the folder whose display has been removedis deleted. Next, the processor 30 displays one or more tiles 70 storedin the folder 72 again in step S151. For example, the SNS tile 80, thephone tile 81, and the email tile 82 stored in the folder 72 aredisplayed in approximately the same state as a state before these tilesare stored in the folder 72 as illustrated in FIG. 29. When processingin step S151 ends, i.e., the folder 72 is deleted, the processor 30 endsthe long-tap operation processing, and returns to the folder controlprocessing.

If “NO” in step S145, i.e., the operation to delete the folder 72 hasnot been performed, the processor 30 determines whether to end editingin step S153. This means that it is determined whether an operation toend editing of the folder 72 has been performed. Specifically, it isdetermined whether the menu key 22 c has been operated. If “NO” in stepS153, i.e., the operation to end editing has not been performed, theprocessor 30 returns to processing in step S131. If “YES” in step S153,i.e., the operation to end editing has been performed, the processor 30ends the long-tap operation processing, and returns to the foldercontrol processing.

FIG. 48 illustrates a flow chart of the flick operation processing. Whenprocessing in step S77 is performed in the folder control processingillustrated in FIG. 44, the processor 30 determines whether thedirection is an upward direction in step S171. This means that it isdetermined whether the flick operation is an upward flick operation. If“YES” in step S171, e.g., the upward flick operation has been performedon the folder 72 to change the name of the folder 72, the processor 30(name change unit 112) performs name change processing in step S173.When the name change unit 112 performs the name change processing, thetext input area 64 and the keyboard 66 are displayed on the display 14as illustrated in FIG. 37, for example. When the name change processingends, the processor 30 ends the flick operation processing, and returnsto the folder control processing.

If “NO” in step S171, i.e., the direction of the flick operation is notthe upward direction, the processor 30 determines whether the directionis the horizontal direction in step S175. This means that it isdetermined whether the direction of the flick operation is thehorizontal direction. If “YES” in step S175, i.e., the horizontal flickoperation has been performed, the processor 30 determines whether thedirection is a leftward direction in step S177 to forcibly switch thedisplay set, for example. This means that it is determined whether theflick operation to display the previous display set has been performed.If “YES” in step S177, i.e., the direction of the flick operation is theleftward direction, the processor 30 turns on the leftward flick flag344 in step S179. This means that, since the flick operation to displaythe previous display set has been performed, the leftward flick flag 344is turned on. If “NO” in step S177, i.e., a rightward flick operationhas been performed, the processor 30 omits processing in step S179, andproceeds to processing in step S181. The processor 30 turns on theforcible switching flag 342 in step S181. This means that, since theflick operation to forcibly switch the display set has been performed,the forcible switching flag 342 is turned on. When processing in stepS181 ends, the processor 30 ends the flick operation processing, andreturns to the folder control processing.

If “NO” in step S175, i.e., the direction of the flick operation is notthe horizontal direction, the processor 30 determines whether thedirection is a downward direction in step S183. This means that it isdetermined whether the direction of the flick operation is the downwarddirection. If “YES” in step S183, e.g., the downward flick operation hasbeen performed to stop or resume switching of the display set, theprocessor 30 determines whether the stopping flag 346 is on in stepS185. This means that it is determined whether switching of the displayset is stopped. If “YES” in step S185, i.e., switching of the displayset is stopped, the processor 30 turns off the stopping flag 346 in stepS187. This means that the stopping flag 346 is turned off to resumeswitching of the display set. On the other hand, if “NO” in step S185,i.e., the stopping flag 346 is off, the processor 30 (stopping unit 113)turns on the stopping flag 346 in step S189. This means that thestopping unit 113 turns on the stopping flag 346 to stop switching ofthe display set.

If “NO” in step S183 as the direction of the flick operation cannot bedetermined normally or when the stopping flag 346 is turned on or off,the processor 30 ends the flick operation processing, and returns to thefolder control processing.

FIGS. 49 and 50 illustrate flow charts of the thumbnail image controlprocessing. The thumbnail image control processing starts when the homescreen is displayed, for example. The processor 30 (second displaycontrol unit 104) displays one or more thumbnail images 74 on thedisplay 14 in step S201. This means that the processor 30 (seconddisplay control unit 104) reads one or more thumbnail images 74 (adisplay set) corresponding to the displayed folder from the thumbnailbuffer 334, and displays the read thumbnail images 74 in the displayrange of the folder 72.

Next, the processor 30 executes the update timer in step S203. Thismeans that the update counter 348 is initialized to measure time fromdisplay of the thumbnail images 74.

Next, the processor 30 reads the folder table 338 in step S205. Theprocessor 30 then determines whether switching of the display set ispossible in step S207. This means that the processor 30 determineswhether switching of the display set is set to be possible in the columnof switching included in the folder table 338. If “NO” is step S207,i.e., switching of the display set is set to be not possible, theprocessor 30 determines whether the update timer has expired in stepS209. This means that it is determined whether the predetermined timehas elapsed since display of the thumbnail images 74. If “YES” in stepS209, i.e., the predetermined time has elapsed since display of thethumbnail images 74, the processor 30 acquires one or more thumbnailimages 74 in step S211. This means that the processor 30 reads data onone or more thumbnail images 74 corresponding to the current display setfrom the thumbnail buffer 334. Next, the processor 30 updates displaystates of the thumbnail images 74 in step S213. This means that thecurrent display set is updated by the acquired thumbnail images 74. Inthis case, when there is any thumbnail image 74 showing liveinformation, the thumbnail image 74 shows the next live information.When processing in step S213 ends, the processor 30 returns toprocessing in step S203.

If “NO” in step S209, i.e., the predetermined time has not elapsed sincedisplay of the thumbnail images 74, the processor 30 returns toprocessing in step S207. If “YES” in step S207, i.e., switching of thedisplay set is set to be possible, the processor 30 determines whetherthe stopping flag 346 is on in step S215. This means that it isdetermined whether switching of the display set is stopped. If “YES” instep S215, i.e., switching of the display set is stopped, the processor30 proceeds to processing in step S209.

On the other hand, if “NO” in step S215, i.e., switching of the displayset is not stopped, the processor 30 determines whether the update timerhas expired in step S217 as in step S209. If “NO” in step S217, i.e.,the predetermined time has not elapsed since display of the thumbnailimages 74, the processor 30 determines whether the forcible switchingflag 342 is on in step S219. This means that it is determined whetherthe horizontal flick operation to forcibly switch the display set hasbeen performed on the folder 72. If “YES” in step S219, the processor 30forcibly causes the update timer to expire in step S221. This means thatthe update timer is forcibly caused to expire as the flick operation toforcibly switch the display set has been performed to eliminate the needfor the update timer to measure the predetermined time. Next, theprocessor 30 turns off the forcible switching flag 342 in step S223.This means that the forcible switching flag 342 is turned off as theupdate timer does not measure the predetermined time in the nextprocessing if the forcible switching flag 342 remains on. Whenprocessing in step S223 ends, the processor 30 proceeds to processing instep S225.

If “NO” in step S219, i.e., the horizontal flick operation has not beenperformed, the processor 30 returns to processing in step S217. If “YES”in step S217, i.e., the predetermined time has elapsed since display ofthe thumbnail images 74, the processor 30 proceeds to processing in stepS225.

Next, the processor 30 determines whether the leftward flick flag 344 ison in step S225. This means that it is determined whether the leftwardflick operation has been performed to display the previous display set.If “NO” in step S225, i.e., the update timer has expired or therightward flick operation has been performed, the processor 30 acquiresthe next display set in step S227. This means that the next display setis acquired from the thumbnail buffer 334. When processing in step S227ends, the processor 30 proceeds to processing in step S233.

On the other hand, if “YES” in step S225, i.e., the leftward flickoperation has been performed, the processor 30 acquires the previousdisplay set in step S229. This means that the previous display set isacquired from the thumbnail buffer 334 to display the previous displayset again. Next, the processor 30 turns off the leftward flick flag 344in step S231. This means that the leftward flick flag 344 is tuned offto avoid false determination that the leftward flick operation has beenperformed in the next processing. When processing in step S231 ends, theprocessor 30 proceeds to processing in step S233.

When the display set is acquired as described above, the processor 30(switching unit 111) switches the display set in step S233. For example,when the predetermined time has elapsed since display of the thumbnailimages 74 on the display 14 or when the rightward flick operation hasbeen performed, the switching unit 111 displays the thumbnail images 74of the next display set on the display 14. On the other hand, when theleftward flick operation has been performed, the switching unit 111displays the thumbnail images 74 of the previous display set on thedisplay 14. When any thumbnail image 74 showing live information isincluded in the previous or the next display set, the live informationshown by the thumbnail image 74 is updated. When processing in step S233ends, the processor 30 returns to processing in step S203.

FIG. 51 illustrates a flow chart of the thumbnail image creationprocessing. The thumbnail image creation processing starts when the homescreen is displayed, for example. The processor 30 reads the foldertable 338 in step S251. This means that the folder table 338 is read tocreate one or more thumbnail images 74 to be displayed. Next, theprocessor 30 creates one or more display sets corresponding to thefolder 72 in step S253. In the case of the folder 72 illustrated in FIG.33, for example, the display set illustrated in FIG. 33 and the displayset illustrated in FIG. 34 are created in advance. Each of the createddisplay sets is stored in the thumbnail buffer 334. The thumbnail images74 are displayed and the display set is switched in the thumbnail imagecontrol processing based on the display sets created in step S253.

Next, the processor 30 determines whether any thumbnail image 74 showinglive information is displayed in step S255. For example, it isdetermined whether the thumbnail image 92 of the email tile 82 showinginformation on an incoming email as the live information is displayed.If “NO” in step S255, i.e., the thumbnail image 74 showing the liveinformation is not displayed, the processor 30 repeats processing instep S255.

On the other hand, if “YES” in step S255, e.g., the thumbnail image 74of the email tile 82 showing the live information is displayed asillustrated in FIG. 33, the processor 30 creates the next liveinformation in step S257. For example, if the thumbnail image 92 a (92)of the email tile 82 illustrated in FIG. 33 is displayed, liveinformation indicating the next incoming email is created. The thumbnailimage 92 b (92) of the email tile 82 including the created liveinformation is then stored in the thumbnail buffer 334. The liveinformation shown by the thumbnail image 74 is updated based on the liveinformation created in this processing when the display set is switchedor when the display states of the thumbnail images 74 are updated.

Next, the processor 30 determines whether processing to update thedisplay states of the thumbnail images 74 has been performed in stepS259. This means that it is determined whether processing to update thedisplay states of the thumbnail images 74 (S213) or to switch thedisplay set (S233) has been performed to change the display state of thethumbnail image 74 showing the live information.

If “NO” in step S259, i.e., the display states of the thumbnail images74 have not been changed, the processor 30 repeats processing in stepS259. On the other hand, if “YES” in step S259, e.g., processing toupdate the display state of the thumbnail image 74 showing the liveinformation has been performed with the thumbnail image 74 showing thelive information being displayed, the processor 30 returns to processingin step S255. In this case, when the thumbnail image 74 showing the liveinformation is displayed again, the next live information is createdagain. On the other hand, when the thumbnail image 74 showing the liveinformation is not displayed, the processor 30 repeats processing instep S255.

In other embodiments, two or more folders 72 may be integrated into asingle folder 72 through the pinch-in operation. In this case, examplesof a name of the folder into which the two folders 72 are integratedinclude a name obtained by arranging names of the two folders 72, a name(e.g., a “combined folder”) indicating that the two or more folders havebeen integrated, and the like.

When the home screen in which the folder 72 is displayed transitions toanother screen or is turned off, the display state of the folder 72 atthe time is stored. When the home screen is displayed next, the folder72 is displayed in the previous state.

The home screen may further include a tile 70 corresponding to anotherapplication (e.g., SMS).

In other embodiments, the user may set any one or more thumbnail images74 displayed in a display range of a single folder 72.

In other embodiments, the display size of the folder 72 may be changedto a size at which up to two thumbnail images 74 can be displayed, asize at which up to six thumbnail images 74 can be displayed, and a sizeat which nine or more thumbnail images 74 can be displayed.

In yet other embodiments, stored tiles 70 may be searched by writingcharacters in the display range of the folder 72 through the touchoperation.

In mobile phones having a voice recognition function, the voicerecognition function may be performed when the folder 72 is opened, anda function corresponding to a tile 70 designated through voice input maybe performed.

A tile 70 stored in the folder 72 may be specified by inputting agesture operation (e.g., to draw a circle) in the display range of thefolder 72 through the touch operation, and a function corresponding tothe tile 70 may be performed. The above-mentioned processing may not bethe gesture operation, but may be an operation to shake the mobile phone10 while touching the display range of the folder 72.

In one embodiment described above, a term “larger than” the threshold isused, but the state of being “larger than the threshold” includes thestate of being “equal to or larger than the threshold”. Similarly, thestate of being “smaller than the threshold” includes the state of being“equal to or smaller than the threshold” and the state of being “belowthe threshold”.

The programs used in one embodiment may be stored in an HDD of a serverfor data distribution, and may be distributed to the mobile phone 10through a network. A recording medium, such as an optical disk includingCD, DVD, and Blue-ray Disk (BD), USB memory, and a memory card, storinga plurality of programs may be sold or distributed. When programsdownloaded through the above-mentioned server, recording medium, and thelike are installed on a mobile phone having equivalent configuration tothat in one embodiment, equivalent effects to those obtained in oneembodiment can be obtained.

Specific numerical values appearing in the present specification aremere examples, and can appropriately be changed in accordance with thechange of specifications of products and the like.

While the present disclosure has been described in detail, the foregoingdescription is in all aspects illustrative and not restrictive. Numerousmodifications not having been described can be devised without departingfrom the scope of the present disclosure.

What is claimed is:
 1. An electronic device, comprising: a memorystoring at least a first application program and a second applicationprogram; a display that displays a first object corresponding to thefirst application program, and a second object corresponding to thesecond application program, wherein the first object has a first sizeand the second object has a second size which is different from thefirst size; a touch panel located on the display and configured todetect a touch operation by a user; and at least one processor coupledto the memory, the display and the touch panel, wherein the at least oneprocessor is configured to: create a third object on the display when afirst touch operation is detected while the first and second objects aredisplayed, wherein the third object is a folder that contains aplurality of objects that includes at least the first and secondobjects; in response to detecting a second touch operation on the thirdobject, display the first and second objects as a group outside of thethird object in their original sizes prior to being placed inside thethird object and a boundary separating the group of the plurality ofobjects from another object that is not within the group of theplurality of objects; in response to detecting a third touch operationon the third object, allow at least one name associated with the folderto be changed, wherein the at least one processor is configured not to,in response to detecting the third touch operation, display theboundary.
 2. The electronic device of claim 1, wherein the first size issmaller than the second size, and wherein at least the second object isreduced in size to be displayed inside the third object.
 3. Theelectronic device of claim 2, wherein: the memory stores a thirdapplication program; and the at least one processor is furtherconfigured to: display the first object with the first size and thesecond object with the second size when the second touch operation onthe third object is detected, display a fourth object corresponding tothe third application program, and when the second touch operation isdetected, display the boundary separating the fourth object from thefirst and second objects.
 4. An electronic device, comprising: a memorystoring at least a first application program and a second applicationprogram; a display that displays a first object corresponding to thefirst application program and a second object corresponding to thesecond application program, wherein the first object has a first sizeand the second object has a second size which is different from thefirst size; a touch panel located on the display and configured todetect a touch operation by a user; and at least one processor coupledto the memory, the display and the touch panel, wherein the at least oneprocessor is configured to: create a third object on the display when afirst touch operation is detected while the first and second objects aredisplayed, wherein the third object is a folder that contains aplurality of objects that includes at least the first and secondobjects; in response to detecting a second touch operation on the thirdobject, display the first and second objects as a group outside of thethird object in their original sizes prior to being placed inside thethird object and a boundary separating the group of the plurality ofobjects from another object that is not within the group of theplurality of objects; in response to detecting a third touch operationon the third object, allow at least one name associated with the folderto be changed, wherein the at least one processor is configured not to,in response to detecting the third touch operation in a state where thefirst object and the second object are not displayed outside of thethird object, display the boundary.
 5. A non-transitorycomputer-readable storage medium storing computer-executableinstructions that when executed perform a method of displaying objectson a display of an electronic device, the electronic device beingconfigured to execute a first application program and a secondapplication program and having a touch panel located on the display, themethod comprising: displaying a first object corresponding to the firstapplication program and a second object corresponding to the secondapplication program, wherein the first object has a first size and thesecond object has a second size which is different from the first size;detecting a touch operation by a user; creating a third object on thedisplay when a first touch operation is detected while the first andsecond objects are displayed, wherein the third object is a folder thatcontains a plurality of objects that includes at least the first andsecond objects; displaying, in response to detecting a second touchoperation on the third object, the first and second objects as a groupoutside of the third object in their original sizes prior to beingplaced inside the third object and a boundary separating the group ofthe plurality of objects from another object that is not within thegroup of the plurality of objects; allowing, in response to detecting athird touch operation on the third object, at least one name associatedwith the folder to be changed, wherein the boundary is not displayed inresponse to detecting the third touch operation.
 6. The non-transitorycomputer-readable storage medium of claim 5, wherein the first size issmaller than the second size, and wherein at least the second object isreduced in size to be displayed inside the third object.
 7. Thenon-transitory computer-readable storage medium of claim 6, wherein themethod further comprises: displaying the first object with the firstsize and the second object with the second size when the second touchoperation on the third object is detected, displaying a fourth objectcorresponding to a third application program, and when the second touchoperation is detected, displaying the boundary separating the fourthobject from the first and second objects.
 8. A method of displayingobjects on a display of an electronic device, the electronic devicebeing configured to execute a first application program and a secondapplication program and having a touch panel located on the display, themethod comprising: displaying a first object corresponding to the firstapplication program and a second object corresponding to the secondapplication program, wherein the first object has a first size and thesecond object has a second size which is different from the first size;detecting a touch operation by a user; creating a third object on thedisplay when a first touch operation is detected while the first andsecond objects are displayed, wherein the third object is a folder thatcontains a plurality of objects that includes at least the first andsecond objects; displaying, in response to detecting a second touchoperation on the third object, the first and second objects as a groupoutside of the third object in their original sizes prior to beingplaced inside the third object and a boundary separating the group ofthe plurality of objects from another object that is not within thegroup of the plurality of objects; allowing, in response to detecting athird touch operation on the third object, at least one name associatedwith the folder to be changed, wherein the boundary is not displayed inresponse to detecting the third touch operation.
 9. The method of claim8, wherein the first size is smaller than the second size, and whereinat least the second object is reduced in size to be displayed inside thethird object.
 10. The method of claim 9, further comprising: displayingthe first object with the first size and the second object with thesecond size when the second touch operation on the third object isdetected, displaying a fourth object corresponding to a thirdapplication program, and when the second touch operation is detected,displaying the boundary separating the fourth object from the first andsecond objects.